About CAPS

CAPS is dedicated to creating the focus and resources needed to develop and implement an overall Systems Driven Strategy focused on the high level system issues of power distribution, system control, performance and component needs of tightly coupled power systems typical of advanced transportation power systems.

By concentrating on broad industry objectives, CAPS provides the mechanism for government and industry to capitalize on a joint infrastructure to produce advanced power systems and components.

CAPS focuses on:

Reliability and flexibility - ability to survive faults and/or damage, ability to adapt to changing conditions, reduction in number of special components, and simplification

Performance - efficiency, responsiveness, and power quality

Power and energy density - size, weight, and performance

Life cycle economics - including related systems, existing business and infrastructure, and overall life cycle costs.

Our Mission

The CAPS mission has four thrusts:

Develop a multidiscipline program for graduate and undergraduate education in advanced power system engineering

Develop research programs strongly focused on simulation and modeling of advanced power systems supported by test facilities, materials research and superconductivity technology

Develop strong partnerships between government, industry, and the academic research community

Advance the state-of-the-art of electric power technology through identifying and developing "dual-use" opportunities

Our Vision

Recent advances in new materials and technologies are presenting significant new system challenges for electric power systems engineers, such as:

Superconductivity

High strength permanent magnet materials

Power semiconductors

Control technologies

Transportation applications are a significant driver and source of "high value" applications that can drive development of advanced power systems. Leading system candidates for advanced technologies are:

All-Electric ships for the All-Electric Navy

High speed rail and maglev systems

Magnetic assisted launch for both aircraft and space craft

Aircraft/spacecraft systems

Transportation applications are functional precursors to utility and industrial applications:

The combination of new technologies and new applications provides many opportunities for a new generation of engineers to:

Develop innovative concepts and equipment

Bring new approaches to existing and new problems

Work at the forefront of new technologies

Development of new technologies should take place in the broadest possible systems context to maximize the advantages of "dual use" product development. Many of the issues surrounding electric power network reliability, robustness, and controllability are common to the military, industry, and utilities. Exploit these commonalities to accelerate the development and deployment of new power technologies.